Redis中提供了原子性命令SETEX或SET来写入STRING类型数据并设置Key的过期时间:
> SET key value EX 60 NX
ok
> SETEX key 60 value
ok
但对于HASH结构则没有这样的命令,只能先写入数据然后设置过期时间:
> HSET key field value
ok
> EXPIRE key 60
ok
这样就带了一个问题:HSET命令执行成功而EXPIRE命令执行失败(如命令未能成功发送到Redis服务器),那么数据将不会过期。针对这个问题,本文提供了几种解决方案:
Lua脚本
向Redis中写入HASH结构的Lua脚本如下:
local fieldIndex=1
local valueIndex=2
local key=KEYS[1]
local fieldCount=KEYS[2]
local expired=KEYS[3]
for i=1,fieldCount,1 do
redis.pcall('HSET',key,ARGV[fieldIndex],ARGV[valueIndex])
fieldIndex=fieldIndex+2
valueIndex=valueIndex+2
end
redis.pcall('EXPIRE',key,expired)
使用Redis命令行工具执行Lua脚本,需要将脚本内容单行化,并以分号间隔不同的命令:
> SCRIPT LOAD "local fieldIndex=1;local valueIndex=2;local key=KEYS[1];local fieldCount=KEYS[2];local expired=KEYS[3];for i=1,fieldCount,1 do redis.pcall('HSET',key,ARGV[fieldIndex],ARGV[valueIndex]) fieldIndex=fieldIndex+2 valueIndex=valueIndex+2 end;redis.pcall('EXPIRE',key,expired);"
"00bfad4f66e549fc57df9cc5f98022c34ada3ef1"
> EVALSHA 00bfad4f66e549fc57df9cc5f98022c34ada3ef1 3 key 2 60 field1 value1 field2 value2
nil
写入结果:
使用StackExchange.Redis执行Lua脚本:
public async Task WriteAsync(string key, IDictionary<string, string> valueDict, TimeSpan expiry)
{
async Task func()
{
if (valueDict.Empty())
{
return;
}
// 可以将脚本内容缓存下来以避免多起读取脚本文件
var luaScriptPath = $"{AppDomain.CurrentDomain.BaseDirectory}/Lua/HSET.lua";
var script = File.ReadAllText(luaScriptPath);
var seconds = (int)Math.Ceiling(expiry.TotalSeconds);
var fieldCount = valueDict.Count;
var redisValues = new RedisValue[fieldCount * 2];
var i = 0;
foreach (var item in valueDict)
{
redisValues[i] = item.Key;
redisValues[i + 1] = item.Value;
i += 2;
}
await Database.ScriptEvaluateAsync(script, new RedisKey[] { key, fieldCount.ToString(), seconds.ToString() }, redisValues);
}
await ExecuteCommandAsync(func, $"redisError:hashWrite:{key}");
}
事务
Redis官方文档在事务一节中指出:Redis命令只会在有语法错误或对Key使用了错误的数据类型时执行失败。因此,只要我们保证将正确的写数据和设置过期时间的命令作为一个整体发送到服务器端即可,使用Lua脚本正式基于此。
StackExchange.Redis官方文档中关于事务的说明,参见:Transactions
以下是代码实现:
public async Task<bool> WriteAsync(string key, IDictionary<string, string> valueDict, TimeSpan expiry)
{
var tranc = Database.CreateTransaction();
foreach (var item in valueDict)
{
tranc.HashSetAsync(key, item.Key, item.Value);
}
tranc.KeyExpireAsync(key, expiry);
return await tranc.ExecuteAsync();
}
占位符
这种方案比较差,思路如下,共分为4步,每一步都有可能失败:
- 先写入一个特殊的值,如Nil表示无数据
- 若第一步操作成功,则Key被写入Redis。然后对Key设置过期时间。若第一步失败,则Key未写入Redis,设置过期时间会失败
- 若成功设置Key的过期时间则像Redis中写入有效数据
- 删除第一步中设置的特殊值
在读取Hash的值时,判断读到的field的值是否是Nil,若是则删除并忽略,若不是则处理。
代码如下:
namespace RedisClient.Imples
{
public class RedisHashOperator : RedisCommandExecutor, IRedisHashOperator
{
private readonly string KeyExpiryPlaceHolder = "expiryPlaceHolder";
public RedisHashOperator(ILogger<RedisHashOperator> logger, IRedisConnection redisConnection)
: base(logger, redisConnection)
{
}
public async Task WriteAsync(string key, IDictionary<string, string> valueDict, TimeSpan expiry)
{
async Task action()
{
if (valueDict.Empty())
{
return;
}
var hashList = new List<HashEntry>();
foreach (var value in valueDict)
{
hashList.Add(new HashEntry(value.Key, value.Value));
}
await Database.HashSetAsync(key, hashList.ToArray());
}
async Task successed()
{
await ExecuteCommandAsync(action, $"redisEorror:hashWrite:{key}");
}
await SetKeyExpireAsync(key, expiry, successed);
}
public async Task<RedisReadResult<IDictionary<string, string>>> ReadAllFieldsAsync(string key)
{
async Task<RedisReadResult<IDictionary<string, string>>> func()
{
var redisReadResult = new RedisReadResult<IDictionary<string, string>>();
if (Database.KeyExists(key) == false)
{
return redisReadResult.Failed();
}
var resultList = await Database.HashGetAllAsync(key);
if (resultList == null)
{
return redisReadResult.Failed();
}
var dict = new Dictionary<string, string>();
if (resultList.Any())
{
foreach (var result in resultList)
{
if (result.Name == KeyExpiryPlaceHolder || result.Value == KeyExpiryPlaceHolder)
{
await RemoveKeyExpiryPlaceHolderAsync(key);
continue;
}
dict[result.Name] = result.Value;
}
}
return redisReadResult.Success(dict);
}
return await ExecuteCommandAsync(func, $"redisError:hashReadAll:{key}");
}
#region private
/// <summary>
/// 设置HASH结构KEY的过期时间
/// </summary>
/// <param name="successed">设置过期时间成功之后的回调函数</param>
private async Task SetKeyExpireAsync(string key, TimeSpan expiry, Func<Task> successed)
{
// 确保KEY的过期时间写入成功之后再执其它的操作
await Database.HashSetAsync(key, new HashEntry[] { new HashEntry(KeyExpiryPlaceHolder, KeyExpiryPlaceHolder) });
if (Database.KeyExpire(key, expiry))
{
await successed();
}
await Database.HashDeleteAsync(key, KeyExpiryPlaceHolder);
}
private async Task RemoveKeyExpiryPlaceHolderAsync(string key)
{
await Database.HashDeleteAsync(key, KeyExpiryPlaceHolder);
}
#endregion
}
}
文中多次出现的ExecuteCommandAsync方法主要目的是实现针对异常情况的统一处理,实现如下:
namespace RedisClient.Imples
{
public class RedisCommandExecutor
{
private readonly ILogger Logger;
protected readonly IDatabase Database;
public RedisCommandExecutor(ILogger<RedisCommandExecutor> logger, IRedisConnection redisConnection)
{
Logger = logger;
Database = redisConnection.GetDatabase();
}
protected async Task ExecuteCommandAsync(Func<Task> func, string errorMessage = null)
{
try
{
await func();
}
catch (Exception ex)
{
if (string.IsNullOrEmpty(errorMessage))
{
errorMessage = ex.Message;
}
Logger.LogError(errorMessage, ex);
}
}
protected async Task<T> ExecuteCommandAsync<T>(Func<Task<T>> func, string errorMessage = null)
{
try
{
return await func();
}
catch (Exception ex)
{
if (string.IsNullOrEmpty(errorMessage))
{
errorMessage = ex.Message;
}
Logger.LogError(errorMessage, ex);
return default(T);
}
}
}
}
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